System and method for a digitally beamformed phased array feed

What is claimed is: 1. A system for a large form-factor phased array comprising a plurality of multi-band software defined antenna array tiles wherein each multi-band software defined antenna array tile comprises: i. a plurality of coupled dipole array antenna elements, wherein each coupled dipole array antenna element includes a principal polarization component oriented in a first direction and an orthogonal polarization component oriented in a second direction, and is configured to receive and transmit a plurality of respective first modulated signals associated with a plurality of respective radio frequencies; ii. a plurality of pairs of frequency converters, each pair of frequency converters associated with a respective coupled dipole array antenna element and comprising a respective principal polarization converter corresponding to a respective principal polarization component and a respective orthogonal polarization converter corresponding to a respective orthogonal polarization component, and each principal polarization converter and each respective orthogonal polarization converter is configured to: (1) receive respective first modulated signals associated with the respective radio frequencies of the plurality of radio frequencies from the respective coupled dipole array antenna element; and (2) convert the respective first modulated signals associated with the respective radio frequencies of the plurality of respective radio frequencies into respective second modulated signals having a first intermediate frequency; iii. a plurality of digital beamformers operatively connected to the plurality of pairs of frequency converters wherein each digital beamformer is operatively connected to one of the respective principal polarization converter and the respective orthogonal polarization converter and each digital beamformer is configured to: (1) receive the respective second modulated signals associated with the first intermediate frequency; (2) convert the respective second modulated signal from an analog signal to a digital data format; (3) generate a plurality of channels of the digital data by decimation of digital data converted from the analog signal using a polyphase channelizer and filtering using a plurality of cascaded halfband filters; (4) select one of the plurality of channels; (5) apply a first weighting factor to the digital data associated with the selected one of the plurality of channels to generate a first intermediate partial beamformed data stream; (6) combine the first intermediate partial beamformed data stream with a plurality of other intermediate partial beamformed data streams to generate a first partial beamformed data stream; (7) apply an oscillating signal to the first partial beamformed data stream to generate a first oscillating partial beamformed data stream; (8) apply a three-stage halfband filter to the first oscillating partial beamformed data stream to generate a first filtered partial beamformed data stream; (9) apply a time delay to the first filtered partial beamformed data stream to generate a first partial beam; and (10) transmit the first partial beam of a first beam along with a first set of a plurality of other partial beams of the first beam to a digital software system interface via a data transport bus. 2. The system for a large form-factor phased array of claim 1 , wherein the plurality of coupled dipole array antenna elements are tightly coupled relative to a wavelength of operation. 3. The system for a large form-factor phased array of claim 1 , wherein the plurality of coupled dipole array antenna elements are spaced at less than half a wavelength of operation. 4. The system for a large form-factor phased array of claim 1 , wherein the plurality of pairs of frequency converters further comprise thermoelectric coolers configured to actively manage thermally a system noise temperature and increase system gain over temperature. 5. The system for a large form-factor phased array of claim 4 , wherein the plurality of pairs of frequency converters further comprise a plurality of spatially distributed high power amplifiers so as to increase an effective isotropic radiated power. 6. The system for a large form-factor phased array of claim 1 , wherein the first intermediate frequency is between 50 MHz and 1250 MHz. 7. The system for a large form-factor phased array of claim 6 , wherein the plurality of respective radio frequencies are between 900 MHz and 6000 MHz. 8. The system for a large form-factor phased array of claim 6 , wherein the plurality of respective radio frequencies are bet=ween 2000 MHz and 12000 MHz. 9. The system for a large form-factor phased array of claim 6 , wherein the plurality of respective radio frequencies are between 10000 MHZ and 50000 MHz. 10. The system for a large form-factor phased array of claim 1 , wherein each digital beamformer is configured to convert the respective second modulated signal from an analog signal to a digital data format by performing First-Nyquist sampling. 11. The system for a large form-factor phased array of claim 1 , wherein each digital beamformer is configured to select one of the plurality of channels using a multiplexer. 12. The system for a large form-factor phased array of claim 1 , wherein each digital beamformer is configured to transmit the first partial beam of the first beam along with a second set of a plurality of other partial beams of a second beam to the digital software system interface via the data transport bus.